~ Outtakes of a Historical Novelist

Isaac Newton and the Philosopher’s Stone

Time for another installment in the series about atom theory by physics professor (and my dad) Dean Zollman. Here, we’re with Isaac Newton at a time when alchemy was mainstream science. – Kim

By Dean Zollman

In addition to Isaac Newton’s work in mathematics and physics, he conducted a large amount of work in alchemy. Many historians believe that he spent more time completing alchemical experiments than he did on all of the science for which he is famous today.

Today, alchemy is frequently considered an occult undertaking that was driven by greed and superstition. However, that view is the result of interpreting the alchemists’ work in light of our 21st century understanding of matter. We know that converting lead or iron into gold through some chemical means is not possible. However, we know this conversion is not possible because we understand that each of the metals is an element made of atoms. We cannot change the atoms of one element into those of another with chemistry. (Nuclear physics is a different story, but we will save it for much later.)

The Alchymist, In Search of the Philosopher’s Stone, Discovers Phosphorus, and prays for the successful Conclusion of his operation, as was the custom of the Ancient Chymical Astrologers, by Joseph Wright of Derby, 1771

In Newton’s time (and long before) philosophers believed that all metals were composed of mercury and sulfur. Some philosophers added salt as a fundamental constituent. Each of the metals such as iron, lead, and gold were mixtures of these two or three fundamental components. Thus, the goal of the alchemist was to find the way to change the mixture found in lead or iron into the mixture found in gold. The substance that could accomplish this was called the Philosopher’s Stone. (A nice overview of alchemy and some contemporary historical research about it can be found at Discover magazine.)

An important player in developing the alchemical view of matter was a 13th century writer and experimentalist called Geber. The name seems to be a pseudonym and is apparently a Latinized version of the name of an 8th century scientist, Jābir ibn Hayyān. Geber’s identity is still somewhat disputed, but evidence is pointing toward a Franciscan monk from southern Italy. More important than his identity, Geber developed a corpuscular theory of matter which became the foundation for much of alchemy.

Daniel Sennert

Closer to Newton’s time a German professor, Daniel Sennert, performed a critical experiment. Sennert dissolved precious metal in acids. The solution which he obtained did not look at all like the metal. In fact, any observer could conclude that the resulting liquid had no metal in it. Prior to Sennert’s experiments most people would conclude that the metal had disappeared. But Sennert then used chemicals to precipitate the original metal out of the solution. A sensible conclusion was that the metal was in the somehow in the solution even though it was not visible. These types of experiments led Sennert to build on Geber’s ideas for a corpuscular model for matter.

Sennert’s experiments had a profound influence on Robert Boyle, who is commonly considered the father of modern chemistry. In Atoms and Alchemy, William Newman states that Boyle “borrowed” Sennert’s ideas “almost verbatim” in his first paper on atomism.

Likewise, historians in recent years have seen much similarity between some of Sennert’s ideas and some of Newton’s. For example, Sennert’s models include attraction between corpuscles with different affinities for different substances. So does Newton’s.

Portrait of Sir Isaac Newton, Godfrey Kneller, 1702

How much influence the alchemists had on Newton and his ideas about matter are still being sorted out. Newton read much about alchemy. He wrote many documents about his experiments but did not publish them. Some historians estimated that Newton’s writings on alchemy exceed a million words. So he clearly was aware of the alchemistic viewpoint. And at this time, the alchemists had developed a well-founded corpuscular model of matter. This work plus that of Newton and Boyle put the concept of small units of matter which make up everything on rather firm footing.

Independent of what influenced Newton’s and Boyle’s view of matter, the time after their discoveries began some fast moving changes in humankind’s understanding of the objects that we cannot see. More on that next time.

Dean Zollman is university distinguished professor of physics at Kansas State University where he has been a faculty member for more than 40 years. During his career he has received four major awards — the American Association of Physics Teachers’ Oersted Medal (2014), the National Science Foundation Director’s Award for Distinguished Teacher Scholars (2004), the Carnegie Foundation for the Advancement of Teaching Doctoral University Professor of the Year (1996), and AAPT’s Robert A. Millikan Medal (1995). His present research concentrates on the teaching and learning of physics and on science teacher preparation.

About Me

I am the author of The Cross and the Dragon, a tale of love during the wars and blood feuds of Charlemagne's reign, and the The Ashes of Heaven's Pillar, a story of the lengths a medieval mother will go to protect her children. Fireship Press is the publisher for both. For more about me and my fiction, visit kimrendfeld.com or contact me at kim [at] kimrendfeld [dot] com.

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